SU736252A1 - Device for leakage current protection in three-phase electric mains with insulated neutral wire - Google Patents

Description

a significant advantage of such leakage relays, because with another method of deforming the protective characteristic based on the additional use of the currents flowing through the circuit of the leakage relay under the influence of the neutral bias voltage ,; arising during the carrying -. of the ground fault closure to the ground (contact of a person to the network phase), the values of disconnecting the device of resistance of single-phase leakage are dependent on the network capacitance in the directional circuit AND; opposite to the required electrical safety

Dg; obtaining a stable zatzitnoy characteristics of a leakage relay, the capacitance value of the capacitor of the above-nute-four-port network should significantly exceed the maximum capacity of the electrical network with respect to seivinHr, which is possible in practice,

In commercial units: devices, the capacitance value of this capacitor is from a to s sjH to f,

The magnitude of the resistor of the specified quadrupole is also strictly fixed and is determined once the distance between the received 5S1MI disconnect leakage resistors and 1- ZOL network

Take a look; to ensure the necessary degree of deformation of the protective, har 1: - the leakage relay characteristics and its stability of the resistor size and concentrators in the specified four gulyusk should be strictly:

, with such parameters of the quadrangular, all devices are used, using the effect of causing a transient process in the operative circuit when the person touches a) 5 forks are correct, and one characteristic has one significant CTTT.tok - inconsistency -; e of the actual distance from the protected network required by the Security Rules (no more than 0.2 s) in the case of supplying voltage from the network, I have Lijyra one-phase leakage to iOOO ohms

This happens as a result of the fact that when voltage is applied to the protected p-o network, the voltage is also supplied at the same time as the leakage relay circuit. At this moment the capacitor of the L-shaped quadrupole is discharged and the short circuit cannot deliver the device needed The iperiodic component of the interactive current is in a transient mode, but it even shunts the initial input of the measuring element from the initial moment.

If there is a single phase leak in the network being connected (which could be a person), then it is pragstically not shut down due to the safety regulation in the Safety Rules.

m;

capacitor current in the operational circuit increases with a considerable time constant,

Devices are known for group segmental protection against current leaks in three-phase electrical networks with insulated neutral, which are used as network-wide networks.

leakage relay with the same principle of deformation of the protective characteristics.

A device for group selective protection against current leaks in three-phase electric networks with insulated neutral is installed, containing a circuit breaker connected to the substation buses, an off-line leakage relay in the feeder, in which

between the rectifying bridge of the operating voltage source and the operating circuit, a U-shaped quadrupole of two capacitors connected by a resistor and a relay is connected,

Controlling isolation of the entire network 2.

In this device, in order to increase the protection reliability, its operational circuit from the earth side is connected to the output and to the input of which: three poles from the resistors through the disconnecting contact of the said relay controlling the insulation of the entire network and sequentially connected closing contact of this

the same relay is the coil of the additional relay, the closing contact of which is included B the circuit of the disconnecting coil of the circuit breaker.

It is also known a device for group selective leakage current in three-phase electrical networks from an isolated keytra, a plug containing a network-wide relay.

leaks are connected to the substation, - leakage blocking relays with a three-phase choke, installed on the outgoing feeder, h: add-on actuating relay, high voltage source:

voltage in series with which it is turned on, blocking connection to the active contact of the feeder contactor. With increased reliability in interlock turnips between

the zero point of the three-phase throttle and the ground additionally connects the series-connected choke and the capacitor in series, and the source of the operating voltage and

chu, vstvite.pnye executive

connected to the capacitor through a block disconnecting contact 3. Such inclusion of an additional compensating throttle in the leakage blocking relay circuit makes it possible to more fully compensate for the capacitive earth fault current not only in the network operating mode, but also after the feeder is turned off when the inertia EMF becomes the source electric motors.

However, all these devices, related to devices for group selective protection against current leaks in three-phase electric networks with insulated neutral, contain, in operational circuits of network-wide leakage routes, the previously mentioned L-shaped quadrupole consisting of a capacitor and a resistor, which also increases the response time of these devices to values that are unacceptable according to Safety Rules in the case of supplying voltage to substation buses that have insulation damage or are touched by people at that moment century.

The closest is a device for protection from leakage currents in three-phase electric networks with insulated neutral with mobile transformer substations, containing a three-phase choke connected to the network, in series with which compensating and zero inductors are connected, the source of operating voltage from P a quadrupole of two capacitors and a resistor, as well as a transistor relay, made according to the two-stage amplifier circuit with a direct connection to the collector and emitter circuit of the second whose transistor, respectively, includes a relay coil, capacitor-bridged and a diode connected to a source of collector voltage through a resistor 4.

In order to increase the reliability of protection, the emitter of the transistor of the first stage of the amplifier and the positive pole of the power source of the transistor relay are connected directly to the connection points of the grounding wires to the body of the mobile transformer substation, i.e. the automatic control of the connection of the circuit of the device with the grounding network is provided, as well as the magnitude of the transient resistances at the points of connection of the grounding wires to the substation housing is monitored.

The device contains in its operational circuit an L-shaped quadrupole consisting of a capacitor and a resistor, which can be separated from the elements of the quadrupole and which, as was shown earlier, increases the response time of the device to a value that exceeds the requirements specified in the existing Safety Rules, when voltage is applied to a network having a single phase leakage of 1000 ohms.

In addition, the implementation in this device of the bias circuit of the second transistor amplifier on the diode and the resistor leads to the fact that

If the mains voltage decreases, for example, when the motor starts up, it can operate falsely and disconnect the network even at the value of the transient resistance

5 at the points of connection of the grounding wires to the substation case, almost zero.

This is due to the fact that when the supply voltage is reduced, the first transistor of the amplifier goes from the saturated state to the amplifier mode. In this case, the voltage drop across it increases at the same time, the reference voltage removed from the diode indicated remains almost unchanged. Therefore, even a slight decrease in the network voltage will inevitably cause the second transistor to go open, regardless of

0 higher transient resistance.

In connection with this, the device in practice does not satisfy the requirements of the Rules for the manufacture of electrical equipment in the mine normal

5, according to which the leakage protection device should maintain its operability while reducing the supply voltage to 75% of the nominal value.

0

The disadvantage of the device is low reliability of its work.

The aim of the invention is to improve the reliability of the device.

The goal is achieved by the fact that in a known device for protection against leakage current in a three-phase electric network with an insulated neutral with mobile transformer substations, containing a three-phase choke connected to the network, hence with which compensating and zero chokes are connected, to the common connection point of which the first lining of the filtering capacitor is connected, the source of direct operating voltage, to the output of which is connected a U-shaped quadrupole consisting of two capacitors, with single resistor, two-stage transistor amplifier relay

0 actions, the emitter of the first transistor of which with the second plate of the filtering capacitor connected to it and the positive pole of the power source are connected to the month

There is a connection of earthy wires to the case of a mobile transformer substation, and the collector and emitter of the second transistor are connected respectively to the winding of the executive relay, capacitance mounted, and the bias circuit consisting of two elements, one of which is a resistor, and an additional the relay, the winding of which is connected to the poles of the power source, the first time the contact contact is connected in parallel to the resistor of the mentioned quadrupole, the second time through an adjusting parallel resistor It is the output capacitor of the mentioned quadrupole, the third through the resistor to the negative pole of the power source and to the first plate of the filtering capacitor, and the first is the contact between the output of the quadrupole and the input of a two-stage transistor amplifier of relay action, the second element of the bias circuit It has a resistor,

The drawing shows a circuit diagram of the device.

The device 1 is connected to the tires 2 of the mobile transformer substation 3, the primary winding of the trans-fort / 1ator 4 of which is connected to the electric power line 5 through the disconnector b, and the secondary winding through the automatic switch 7 to the buses 2, to which the automatic switches 8 connect the cables low voltage consumers 9 "Insulation monitoring is carried out by applying a rectified voltage to the network under operating voltage .Mf and as a source of electrical energy for the protection circuit s is used little wife voltage controlled network, removable from the secondary winding of three-phase choke 10 -transformatora.

In order to increase the breaking resistances of the device 1 when a person touches due to the use of transients, a U-shaped four-terminal 11 is introduced into the operational circuit.

A source of operating voltage (rectifier 12) with a P-shaped quadrupole 11 is connected on one side through the input of a two-stage transistor amplifier 13 of relay action to the ground wires, and on the other via a kilo-meter 14 parallel to which the button 15 is turned on, zero 16 and compensating 17 throttles - to the zero point of the three-phase throttle transformer 10, serving as a communication cell with a controlled network, with the common point of the throttles 16 and 17 connected to the grounding device through a filter capacitor 18 ,

One of the three-phase droplet rods 10 acts as a transformer for powering the operational circuit (rectifier 12) and two-stage transistor amplifier 13 of relay action (rectifier 19). The amplifier is 13 according to the two-stage amplifier circuit with a direct connection, in which the collector and the emitter circuit of the second transistor 20, respectively, includes the coil of the executive relay 21, shunted by a capacitor

22 and the bias circuit formed on the resistors 23 and 24, the emitter of the first transistor 25 of the relay amplifier 13 and the positive pole of the rectifier 19 are connected directly to the grounding wires from the high and low sides of the mobile t-transformer substation 3. With this connection of the device 1 to the ground network current from the positive pole of the rectifier 19 (dot

A) to the emitter of transistor 25 (point B) flows through the points of connection of the grounding wires to the substation 3 case. the reference voltage across the 2L resistor,

If the magnitude of the voltage drop between points A and B becomes more than the reference voltage, then a unlocking voltage is applied to the base-emitter junction of transistor 20. As a result, the transistor 20 becomes weak and the coil of the relay 21 is almost under full voltage of the rectifier 19, the relay 21 is activated and the contact switch 26 turns off the circuit breaker 7 by pushing the contact 26,

The test circuit of the device consists of the resistance 27 and the contacts of the button 28, the effect of which allows you to check the condition of the system, C, by replacing the diode in the bias circuit of the second transistor of the relay amplifier 13 with a resistor

23 the false operation of the known device is eliminated in the event that the supply voltage of the network is reduced even at normal transient resistance values at the places where the ground wire is connected to the mobile transformer / power station, the continuity control circuit of the ground network is connected to the transformer substation.

this case as follows. When the supply voltage decreases, the transistor 25 of the amplifier 13 due to a decrease in its base current goes from the saturated state to the amplification mode. The voltage drop at its emitter-collector junction increases. In the case when it begins to transform the reference voltage across the resistor 23, the transistor 20 from the closed state begins to transition to the conducting state. The collector current of transistor 20, the passage through resistor 23, causes an additional voltage drop across it, the value of which is proportional to the voltage drop at the emitter-collector junction of transistor 25. As a result of negative current feedback from the collector of transistor 20, the linear relationship between voltage But the emitter-collector junction of the transistor 25 and the voltage drop across the resistor-23, thus eliminating the false triggering of the device with a decrease in network voltage. In order to achieve the device response time required by PIERNI (not more than 0.1 s) in case of supply voltage to the network having a single-phase leakage of 1000 Ohms, the device is equipped with an additional relay 29 connected to the terminals of the amplifier power supply source 19 o. relays 30 and 31 are included in the source of a source 12 of operative voltage in such a way that during the intake of this relay the indicated source is loaded almost exclusively on adjustable resistor 32,

As a result of this connection, a forced charge of the capacitor 33 occurs, which during the retraction of the additional relay 29 manages to be charged to a voltage equal to the voltage drop across the resistor 32.

The voltage of the power source 12 in this case is distributed proportionally between the internal resistance of the source and the resistor. 32. By changing the value of the resistor 32, it is possible to regulate the voltage to which the U-shaped quadrupole capacitor 33 connected in parallel with its trick is charged. This voltage determines the device setting to trip in the event of a voltage being applied to the damaged network. After the additional relay 29 is activated, the precharged capacitor 33 is switched by its closing contact 34 into the operational leakage relay circuit. In case the network has a single-phase leakage close to the device setpoint, the aperiodic component of the discharge of the capacitor 33 causes its operation,

The contact 34 of the auxiliary relay 29 is inserted into the input circuit of the amplifier 13, to prevent false triggering of the device during the charging period of the capacitor 33. Except for that (to prevent false operation of the device as a result of recharging the precharged capacitor 33 (at the moment of its connection to operative circuit) on the capacitor 18 and the network capacity, the next pre-charged through the opening contact 35 of the additional relay 29 to the same voltage from the power source, 19 relay amplifier 13. Resistor 36 is entered d, n ogre anichen, current through pin 35 of the auxiliary relay 29,

The proposed device works

0 as follows.

In the normal state, there is a voltage, it has a network between the points A and B, the voltage drop across this section of the reference voltage on the resistor 23 and the transistor 20 is reliable

5 locked Since the unlocking current, defined by the magnitude of the resistor 37, flows through the base-emitter transistor 25, this transistor is in a saturated

0 state.

When, as a result of the decrease in the insulation resistance of the network, the magnitude of the operational current from the VKMr 12 is greater;

5 current, transmstorm 25 and 20 abruptly change their state. Relay 21 triggers and trips the circuit breaker 7.

With a slow decrease in the insulation resistance, the device operates due to an increase in the operational current, when a person touches the current-carrying part, due to the occurrence of an operative circuit of the aperiodic component: operational current, the device in this case occurs at higher leakage resistances. than the required deformation of the protective characteristic is achieved.

The use of the device makes it possible to increase the reliability of the protection against leakage currents B of three-phase electric networks with insulated neutral by reducing the device's own response time, in the case of supplying voltage. network, damage to the insulation, and also by eliminating the false operation of the device in the event of a significant (up to 75%) reduction in the network voltage. All this ultimately makes it possible to increase the electrical safety of the electrical service.

Novel in three-phase electrical networks with insulated neutral.

Claims (4)

1. Tonkoshkur A.S., et al. Deforming the protective characteristics of a leakage relay using transients, - Electricity, : 1, 1973, pp. 85-87. 2. USSR Author's Certificate Nf 417868, H 02 H 3/16, .1972. 3. Authors certificate of the USSR 442543, H 02 H 3/16, 1972. 4. USSR author's certificate f 445095, H 02 H 3/16, 1972.